A specific thermodynamic analysis of organic Rankine cycle, in reference to different sizes of internal combustion engines conventionally used for biogas/landfill gas, was carried out, considering several working fluids, different cycle configurations (simple cycle or regenerated cycle) and conducting a parametric analysis in order to determine optimal evaporating pressures for each fluid. The analysis demonstrates that the overall efficiency can be increased by 1,7-4,7 percentage points and the power can be incremented by 5-13% with respect to the engine without any bottoming cycle, depending on the organic fluid and the type of engine.
Lombardi, L., Corti, A., Carnevale, E. (2010). Energy Recovery from biogas: internal combustion engines coupled with Organic Rankine Cycle. In ECOS 2010 – 23rd International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems.
Energy Recovery from biogas: internal combustion engines coupled with Organic Rankine Cycle
CORTI, ANDREA;
2010-01-01
Abstract
A specific thermodynamic analysis of organic Rankine cycle, in reference to different sizes of internal combustion engines conventionally used for biogas/landfill gas, was carried out, considering several working fluids, different cycle configurations (simple cycle or regenerated cycle) and conducting a parametric analysis in order to determine optimal evaporating pressures for each fluid. The analysis demonstrates that the overall efficiency can be increased by 1,7-4,7 percentage points and the power can be incremented by 5-13% with respect to the engine without any bottoming cycle, depending on the organic fluid and the type of engine.
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https://hdl.handle.net/11365/43208
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